Environmental & Green Materials
Abstract
The Institute of Advanced Materials, IAAM embodies our dedication to pioneering materials for groundbreaking applications in health, energy, and the environment. Over time, this institute has advocated the integration of translational research and innovation to bolster various sectors and industries. ...
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The Institute of Advanced Materials, IAAM embodies our dedication to pioneering materials for groundbreaking applications in health, energy, and the environment. Over time, this institute has advocated the integration of translational research and innovation to bolster various sectors and industries. The IAAM, Ulrika campus promotes climate-efficient R&D protocols and nurtures an organic worldwide innovation cluster. Our activities are underpinned by an unwavering commitment to innovation and cutting-edge technology. As an institute, our ambition is to constantly redefine the frontiers to better serve critical areas integral to human well-being. In the age of sustainability and the push for greener solutions, a climate-efficient Research and Development (R&D) process stands as a beacon of hope and a model for others to emulate. Such methodologies prioritize not only technological and scientific advancements but also ensure that these advancements tread lightly on our planet. They are designed to minimize carbon footprints, utilize renewable resources, and employ best practices that reduce waste and energy consumption.
Environmental & Green Materials
Ashutosh Tiwari
Abstract
Climate change is evolving as the major concern of erratic weather conditions for example heavy rains, drought floods, landslides, soil erosion, tsunami, and extreme cold and warm weather, which severely impact the livelihoods of mankind. Attaining the substance by reducing carbon pollution and other ...
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Climate change is evolving as the major concern of erratic weather conditions for example heavy rains, drought floods, landslides, soil erosion, tsunami, and extreme cold and warm weather, which severely impact the livelihoods of mankind. Attaining the substance by reducing carbon pollution and other greenhouse gases is the best way to control climate change. Considering the suitable climate, habitat variation, and their adverse effects such as glaciers, heatwave, sea levels rise, etc., it is important to understand the climate control and framing combat policy as per the requirement of energy. Hydrogen is now established as a clean and flexible energy carrier. Europe and the other nations are progressively walking toward achieving the net-zero objective with the overview of clean hydrogen energy, which will ensure global sustainability faster.
Sachin Mishra; Sri Ram Krishna Mishra; Manish Kumar Mishra; Vikas Dubey
Abstract
New products and materials innovations are rapidly owned by fast developing industries and smart startups. Automation in industry has taken out many jobs but has given opportunities for diversification. Evolution of the new technologies helps in improvement of global economy. Sustainable developments ...
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New products and materials innovations are rapidly owned by fast developing industries and smart startups. Automation in industry has taken out many jobs but has given opportunities for diversification. Evolution of the new technologies helps in improvement of global economy. Sustainable developments aim for self-reliance and technically acceptable. Sustainability may be understood as such development which meets the needs of the present without compromising the ability of future generations to meet their own needs. It is well understood that earlier development consumes vast quantity of natural resources without caring of negative impact on environment upon which they depend.
Antonios Kelarakis
Abstract
In view of the continuous decline in fossil fuel reserves, at a time when energy demands are steadily increasing, a diverse range of emerging nanotechnologies promise to secure modern solutions to the prehistoric energy problem. Each one of those distinct approaches capitalizes on different principles, ...
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In view of the continuous decline in fossil fuel reserves, at a time when energy demands are steadily increasing, a diverse range of emerging nanotechnologies promise to secure modern solutions to the prehistoric energy problem. Each one of those distinct approaches capitalizes on different principles, concepts and methodologies to address different application requirements, but their common objective is to open a window to a sustainable energy future. Consequently, they all deserve substantial (though not necessarily equal) consideration from the scientific and engineering community. In this review we present bottom-up strategies that show great promise for the development of a new generation of advanced materials for energy applications without compromising the public safety or the environment.
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